Method for selecting a synchronous code in a mobile communication synchronic system

ABSTRACT

The invention discloses a selecting method of a synchronization code for a mobile communication synchronization system. The method selects a binary code with zero correlation window as the synchronization codes for a mobile communication synchronization system, i.e. selects a binary code whose periodic autocorrelation and periodic cross-correlation have a zero correlation window, or whose aperiodic autocorrelation and aperiodic cross-correlation have a zero correlation window; and for former transmitting the synchronization codes uses cyclic and continuous mode and for later a protection time slot is added to said synchronization codes for transmitting. A width of said zero correlation window is defined according to that the width is greater than time delay spread of a multipath signal. Using the method, the selected synchronization code can implement more accurate synchronization.

FIELD OF THE TECHNOLOGY

[0001] The invention generally relates to wireless telecommunication technology, specifically to a synchronization scheme with a specifically selected synchronization code of the synchronization system in the mobile communication technology.

BACKGROUND OF THE INVENTION

[0002] Synchronization is a key technique in a mobile communication system. Searching with a synchronization code, the maximum correlation peak can be found through a correlation method; then the synchronization of subscriber signal is implemented or the most appropriate base station for the subscriber access is found. At present in a mobile communication system, the selected synchronization codes are a pseudo-random code. As the autocorrelation and cross-correlation value of these pseudo-random codes at the neighborhood where time-delay equals to zero are not equal to zero, so there is mutual interference between these pseudo-random codes.

[0003] Code division multiple access (CDMA) is an interference limited technology. When system synchronization is made with a synchronization code, the synchronization accuracy and veracity will be affected by interference, which includes interference caused by the multipath propagation of the synchronization signal itself and interference caused by the synchronization signals of other subscribers, etc.

[0004] For suppressing these interferences, a multi-user detection technique or other adaptive process methods are used at present, but they have high computation complexity and are difficult to realize. Therefore, with the present synchronization codes and without increasing the system complexity, it is difficult to implement a low interference, high accuracy and veracity of synchronization.

SUMMARY OF THE INVENTION

[0005] Objective of the invention is to design a synchronization scheme with a selecting method of the synchronization codes for a mobile communication system, and the synchronization codes selected by this method will increase synchronization accuracy without increasing the system complexity.

[0006] For describing the technical scheme of this method, first the following definitions will be introduced.

[0007] Definition 1

[0008] Suppose a and b are two binary codes with equal length N,

a=[a₀a₁ . . . a_(N-1)] and b=[b₀b₁b_(N-1)]; wherein a_(i), b_(i)ε{−1,1}, i=0,1, . . . N−1;

[0009] then $\begin{matrix} {{r_{a}(\tau)} = {\frac{1}{N}{\sum\limits_{t = 0}^{N - 1}{a_{t}a_{{({t + \tau})}\quad \% \quad N}}}}} & (1) \\ {{r_{a}^{(l)}(\tau)} = {\frac{1}{N}{\sum\limits_{t = 0}^{N - 1 - \tau}{a_{t}a_{t + \tau}}}}} & (2) \end{matrix}$

[0010] wherein τ=0,1 . . . N−1; and formulas (1) and (2) are periodic autocorrelation and aperiodic autocorrelation of the code a, respectively. $\begin{matrix} {{r_{ab}(\tau)} = {\frac{1}{N}{\sum\limits_{t = 0}^{N - 1}{a_{t}b_{{({t + \tau})}\quad \% \quad N}}}}} & (3) \\ {{r_{ab}^{(l)}(\tau)} = {\frac{1}{N}{\sum\limits_{t = 0}^{N - 1 - \tau}{a_{t}b_{t + \tau}}}}} & (4) \end{matrix}$

[0011] wherein τ=0,1 . . . N−1; % is a modulo operator and formulas (3) and (4) are periodic cross-correlation and aperiodic cross-correlation of the codes a and b, respectively.

[0012] Definition 2

[0013] Suppose spread spectrum codes m₁, m₂ . . . m_(p) with length N simultaneously satisfy:

[0014] a. periodic autocorrelation

Γm_(i)(ε)=0

[0015] or aperiodic autocorrelation r_(m_(i))^((l))(τ) = 0, i = 1, 2, ⋯  , P, τ ∈ [−L, 0)⋃(0, L], L ≺ N;

[0016] b. periodic cross-correlation

Γ_(mimj) ^((ε)=0)

[0017] or aperiodic cross-correlation r_(m_(i)m_(j))^((l))(τ) = 0, i, j = 1, 2, ⋯  , P, i ≠ j, τ ∈ [−L, L], L ≺ N,

[0018] then binary codes with the zero correlation characteristics are called codes with zero correlation window.

[0019] Technical scheme to implement objective of the invention is as following:

[0020] A method of selecting synchronization code for a mobile communication synchronization system, it is characterized that a binary code with a zero correlation window characteristics is selected as the synchronization codes for a mobile communication synchronization system.

[0021] Said a binary code with a zero correlation window characteristics is a binary code whose periodic autocorrelation and periodic cross-correlation exist a zero correlation window characteristics, or whose aperiodic autocorrelation and aperiodic cross-correlation exist a zero correlation window characteristics.

[0022] A width of said zero correlation window is defined according to that said width is greater than the time delay spread of a multipath signal.

[0023] For said synchronization codes whose periodic autocorrelation and periodic cross-correlation exist a zero correlation window characteristics, the synchronization codes are transmitted by a cyclic and continuous transmitting mode.

[0024] The step of continuously transmitting the selected synchronization codes is that the selected synchronization code is repeatedly transmitted until a synchronization time slot with 96 chips is filled in.

[0025] For the synchronization codes whose aperiodic autocorrelation and aperiodic cross-correlation exist a zero correlation window, a protection time slot is added to the synchronization codes for transmitting.

[0026] The step of adding the protection time slot in the transmitted synchronization codes is that, in said synchronization codes including a 32 chips GP time slot and a 64 chips SYNC time slot, the 64 chips SYNC time slot is substituted by a code that zero autocorrelation and zero cross-correlation of the code exist a zero correlation window.

[0027] When making synchronization searching, with said synchronization codes synchronization are adjusted according to a correlation method.

[0028] In the invention, the correlation window width of a selected synchronization code is determined according to a system requirement, which includes, but not limited, the followings: the multipath time delay spread of a wireless signal in the mobile communication cell, chip rate in the mobile communication system etc.

[0029] In practice, with the selected codes of the invention, synchronization adjustment accords to the ordinary correlation method.

[0030] The effect of the invention is as follow. Since the selected synchronization code has a better autocorrelation characteristics, the multipath signals caused by multipath propagation of the synchronization code itself does not produce interference; at the same time, since the cross-correlation between different synchronization codes also exists zero correlation window, synchronization codes of other subscribers does not bring interference to the subscriber too. Therefore, without using multiple user detection technique or other adaptive process methods, the synchronization codes selected by the method of the invention can have good correlation detection to implement a more accurate synchronization.

[0031] When periodic autocorrelation and periodic cross-correlation of the selected synchronization code exist a zero correlation window, the synchronization codes can be transmitted with a cyclic and continuous transmitting mode. When aperiodic autocorrelation and aperiodic cross-correlation of the selected synchronization codes exist zero correlation characteristics, the synchronization codes can be transmitted with adding a protection time slot mode. Both of these modes can guarantee implementation of the effect mentioned above.

BRIEF DESCRIPTION OF THE DRAWINGS

[0032]FIG. 1 shows a structure diagram of a synchronization code selected with the method of the invention.

EMBODIMENTS OF THE INVENTION

[0033] The invention will be described in more detail with reference the FIGURE and embodiment.

[0034] Refer to FIG. 1, the length of synchronization code is 75 μs, the protection time-slot GP is 32 chips and the synchronization time-slot (SYNC) is 64 chips. Since the synchronization code is an aperiodic autocorrelation and aperiodic cross-correlation synchronization code with zero correlation characteristics, so a protection time-slot is added.

[0035] In a time division-synchronous CDMA (TD-SCDMA) mobile communication system, according the requirement of “Spreading and modulation” in reference document TS C104, the SYNC part of FIG. 1 is substituted with a code that is a aperiodic autocorrelation and aperiodic cross-correlation synchronization code with a zero correlation window, so the mutual interference of the synchronization codes is reduced.

[0036] A binary code with periodic autocorrelation and periodic cross-correlation with a zero correlation window characteristics, which is proposed by document, “Spreading sequence sets with zero correlation zone”, Deng Xinmin and Fan Pingzhi, Electronics Letters, 2000, 36(11): 993˜994, can also be used as synchronization codes, it is shown as formula (5) in the following: $\begin{matrix} \begin{matrix} {a_{1} = \left( {--{--{+ {- {+ {--{+ {--{++{+ {- {+ {--{++{+ --}}}}}}}}}}}}}}} \right)} \\ {a_{2} = \left( {--{+ {--{++{++{+ {- {++{+ {--{- {+ {--{- {+ {- +}}}}}}}}}}}}}}}} \right)} \\ {a_{3} = \left( {+ {- {+ {--{- {+ {--{- {++{- {+ {--{--{- {++{- ++}}}}}}}}}}}}}}}} \right)} \\ {a_{4} = \left( {--{++{+ {--{+ {- {++{++{+ {- {++{- {+ {- {++++}}}}}}}}}}}}}}} \right)} \end{matrix} & (5) \end{matrix}$

[0037] Wherein “−” represents “−1” and “+” represents “+1”. When transmitting the synchronization code, a code such as a₁ is selected. Since there are 96 chips in FIG. 1 synchronization code structure, so synchronization code a₁ must be transmitted repeatedly four times, i.e. a₁ a₁ a₁ a₁, to fill the synchronization time slot.

[0038] The code in formula (5) has a zero correlation window with three chips width, the periodic autocorrelation and periodic cross-correlation, which is computed by formulas (1) and (3), satisfy:

Γ_(a) _(j) (ε)=0,i=1,2,3,4,ε=1,2,3andr Γ_(a) _(i) _(a) _(j) (ε)=0,i,j=1,2,3,4,i≠j,ε=0,1,2,3∘

[0039] Suppose taking the arriving time of first path signal as reference for the received multipath signal of a base station, the maximum relative time delay of other paths is ε_(max) and system chip period is Tc; then when ε_(max)<3Tc, the codes of the formula (5) can be used as the system synchronization codes, otherwise it is necessary to take a code with a wider zero correlation window as the system synchronization codes.

[0040] When energy of multipath signals is relatively small, such as less than −20 dB, then affection to the system is smaller too. In this case, said maximum relative time delay of each of path ε_(max) can take the maximum relative time delay of multipath with enough signal energy. 

1. A method of selecting a synchronization code for a mobile communication synchronization system, comprising: selecting a binary code with a zero correlation window characteristics as the synchronization codes for the mobile communication synchronization system.
 2. The method according to claim 1, the binary codes with the zero correlation window characteristics is a binary code whose periodic autocorrelation and periodic cross-correlation have a zero correlation window characteristics, or whose aperiodic autocorrelation and aperiodic cross-correlation have a zero correlation window characteristics.
 3. The method according to claim 1, further comprising, defining a width of the zero correlation window according to that said width is greater than time delay spread of a multipath signal.
 4. The method according to claims 1, further comprising, for said synchronization codes whose periodic autocorrelation and periodic cross-correlation have a zero correlation window characteristics, transmitting the synchronization codes by a cyclic and continuous transmitting mode.
 5. The method according to claim 4, the step of continuously transmitting the selected synchronization codes comprising, repeatedly transmitting the selected synchronization codes until a synchronization time slot with 96 chips is filled in.
 6. The method according to claims 1, further comprising, for said synchronization codes whose aperiodic autocorrelation and aperiodic cross-correlation have a zero correlation window characteristics, transmitting the synchronization codes by adding a protection time slot.
 7. The method according to claim 6, the step of transmitting the synchronization codes by adding a protection time slot comprising, for the synchronization codes which include a 32 chips protection time slot and a 64 chips sync time slot, substituting said 64 chips sync time slot by a code whose aperiodic autocorrelation and aperiodic cross-correlation have a zero correlation window.
 8. The method according to claim 1, further comprising, synchronization adjusting according to a correlation method in the synchronization searching procedure. 